FCC ID: P27UB801RE 802.11g USB Wireless Adapter

802.11g USB Wireless Adapter User Guide Regulatory Approvals FCC Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communica-

tions. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of the following measures:

Reorient or relocate the receiving antenna. Connect the equipment into an outlet on a circuit different from that to which the receiver Increase the separation between the equipment and receiver. is connected. Consult the dealer or an experienced radio/TV technician for help. To assure continued compliance, any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment.

(Example - use only shielded interface cables when connecting to computer or peripheral devices). FCC Radiation Exposure Statement This equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled environment. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:

(1) This device may not cause harmful interference, and

(2) This device must accept any interference received, including interference that may cause undesired operation. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. This equipment has been SAR-evaluated for use in laptops(notebook). Channel The Wireless Channel sets the radio frequency used for communication. Access Points use a fixed Channel. You can select the Channel used. This allows you to choose a Channel which provides the least interference and best performance. In the USA and Canada, 11 channel are available. If using multiple Access Points, it is better if adjacent Access Points use different Channels to reduce interference. In "Infrastructure" mode, Wireless Stations normally scan all Channels, looking for an Access Point. If more than one Access Point can be used, the one with the strongest signal is used. (This can only happen within an ESS.) If using "Ad-hoc" mode (no Access Point), all Wireless stations should be set to use the same Channel. However, most Wireless stations will still scan all Channels to see if there is an existing "Ad-hoc" group they can join. Note:This equipment marketed in USA is restricted by firmware to only operate on 2.4G channel 1-11

. Table of Contents CHAPTER 1 INTRODUCTION ............................................................................................. 1 Package Contents .............................................................................................................. 1 LEDs................................................................................................................................... 1 Operation ........................................................................................................................... 1 CHAPTER 2 INITIAL INSTALLATION.............................................................................. 2 Requirements..................................................................................................................... 2 Procedure ........................................................................................................................... 2 CHAPTER 3 USING THE WINDOWS UTILITY................................................................ 5 Overview ............................................................................................................................ 5 System Tray Icon............................................................................................................... 5 Auto Connect ..................................................................................................................... 6 Site Survey Screen............................................................................................................. 6 Profile Manager Screen .................................................................................................... 8 Network Status Screen.................................................................................................... 12 About Screen.................................................................................................................... 13 APPENDIX A SPECIFICATIONS ....................................................................................... 14 USB Adapter.................................................................................................................... 14 APPENDIX B ABOUT WIRELESS LANS.......................................................................... 16 Modes ............................................................................................................................... 16 BSS/ESS............................................................................................................................ 16 Channels........................................................................................................................... 17 WEP & WPA-PSK.......................................................................................................... 17 Wireless LAN Configuration.......................................................................................... 17 P/N: 9560XW0001 Copyright 2006. All Rights Reserved. Document Version: 1.0 (June, 2006) All trademarks and trade names are the properties of their respective owners. i Chapter 1 Introduction 1 This Chapter provides an overview of the Wireless Adapter's features and ca-

pabilities. Congratulations on the purchase of your new Wireless Adapter. The Wireless Adapter pro-

vides a wireless network interface for your Notebook or PC. Package Contents The following items should be included:

The Wireless Adapter Unit Quick Start Guide CD-ROM containing the on-line manual. If any of the above items are damaged or missing, please contact your dealer immediately. LEDs USB Wireless Adapter The Wireless Adapter has a single Link/Activity LED. Link/Act LED On Associated with the network. Off - Not associated with the network. Blinking - Data being transferred. Operation You should install the supplied software on the CD-ROM before inserting the USB adapter. 1 Chapter 2 Initial Installation This Chapter covers the software installation of the Wireless Adapter. 2 Requirements Windows 98SE, ME, 2000, or XP. Available USB port. CD-ROM drive. IEEE802.11b or IEEE802.11g wireless LAN. Procedure You should install the supplied software BEFORE inserting the USB Adapter. 1. Insert the CD-ROM into the drive on your PC. 2. The installation program should start automatically. If it does not, run the SETUP.EXE program. 3. Select the desired installation language on the screen. Figure 1: Start Installation 4. On the screen above, click "Next" to start the installation. 5. Step though the procedure until you see the screen below. 2 Installation 6. Click "Continue Anyway" on the screen above. Figure 2: Installation Screen Figure 3: Information Insert the USB Adapter into your PC, then click "OK". 7. 8. The Windows "New Hardware" wizard will then start. Select Install the software automatically to allow it to complete the installation of the Windows driver If using Windows XP, you may see a warning screen like the example below. If you do see this screen, just click "Continue Anyway"

Figure 4: Windows XP Warning 9. When the Windows wizard is complete, you will now have a new icon in your system tray, as shown below. 3 Wireless Adapter User Guide Figure 5: System Tray Icon 10. You can double- click this icon to configure the Wireless interface. See the following chapter for details. 4 Chapter 3 Using the Windows Utility 3 This Chapter provides Setup details for the AP mode of the Wireless Adapter. Overview If using Windows, you can use the supplied utility to configure the Wireless interface. To Use the supplied Windows utility for Configuration Right-click the System Tray icon From the pop-up menu, select "Restore". This Chapter assumes you are using the supplied WLan Application utility. System Tray Icon If the WLan Application program is running, you can double-click the icon in the System Tray to open the application. If the program is not running, you can start it using the option in the Start menu created by the installation. For the USB Adapter, this will be Start - Programs - WLan - WLan Application. Status Information The menu options available from the System Tray icon are:

Restore - This will display the main screen. Radio Off - The wireless adapter is not associated with the network when the radio is off. Exit - Terminate the connection to the Wireless Adapter. Figure 6: Wireless Adapter menu 5 Wireless Adapter User Guide Connecting to a Wireless Network Double-click the Icon to open the Site Survey screen, when you can select the Wireless net-

work you wish to join. Auto Connect Normally, this option should be enabled. The adapter will then connect to an available network which was connected successfully last time. There are various methods to specify the required network. On the Profile Manager tab, select the desired profile in the list, and click the Apply Profile button. On the Site Survey tab, either double-click the network in the list, or select the network and click the Connect button. Site Survey Screen This screen is displayed when you double-click the system tray icon. You can also click the Site Survey Tab in the screen. Figure 7: Site Survey Screen Data - Site Survey Screen Display PC To PC

(Ad-Hoc) Display 802.11b Access Points Select this check box to display ad-hoc (computer-to-computer) networks. Select this check box to display 802.11b (infrastructure) networks. 6 Using the Windows Utility Display 802.11a Access Points Display 802.11g Access Points Network Name MAC Address Security CH. Signal Frequency Network Type Status Rescan Select this check box to display 802.11a (infrastructure) networks. Select this check box to display 802.11g (infrastructure) networks. Available wireless networks are listed. This is the MAC address of the Access Point (or Wireless station, if the network is an Ad-hoc network). Data encryption and authentication methods used on the wireless network The channel used by the Wireless network. This is displayed as percentage (0 ~ 100%). The Wireless band used by this Wireless network. This will indicate "Infrastructure" (displayed device is an Access Point) or "Ad-hoc". (displayed device is a Wireless station) The area to the left of the "Rescan" button shows the current status. In the example above, it shows "Connected". Click this button to rescan for all Wireless networks. Wireless Network Sequence (order) You can click the headings (ex. Network Name, MAC Address, Security) of the Wireless network table to arrange the Wireless network in the desired order. To Connect to a Wireless Network Double-click on the desired network. Click the name of the wireless network to which you want to connect, and then click Connect. Note that once you are connected to a Wireless network, the Site Survey screen will identify the current wireless network with a blue icon, as shown below. Figure 8: Site Survey Screen - Connected 7 Wireless Adapter User Guide Profile Manager Screen This screen is accessed by clicking the Profile Manager tab on the main screen. Figure 10: Profile Manager Screen Data - Profile Manager Screen Profile Name Network Name

(SSID) Advanced Settings Network Type Enter or select a suitable name for this profile. Each profile must have a unique name. If the desired wireless network is currently available, you can select its SSID. Otherwise, type in the SSID of the desired wire-

less network. On the resulting sub-screen, enter the required data for the ad-

vanced settings. Select the desired option:

Ad-Hoc - Select this if you are connecting directly to another Infrastructure - Select this to connect to an Access point. computer. Wireless Mode Prefer Channel Select the desired wireless mode to which you want to connect. Select the channel you would like to use. 8 Using the Windows Utility Authentication Mode You MUST select the option to match the Wireless LAN you wish to join. The available options are:

Open - Broadcast signals are not encrypted. This method can be used only with no encryption or with WEP. Shared Key - Broadcast signals are encrypted using WEP. This method can only be used with WEP. Auto Switch - This is another WEP system; it will select either Open System or Shared Key as required. WPA-PSK - PSK means "Pre-shared Key". You must enter this Passphrase value; it is used for both authentication and encryption. WPA2-PSK - This is a further development of WPA-PSK, and offers even greater security. You must enter this Passphrase value; it is used for both authentication and en-

cryption. WPA-Radius - This version of WPA requires a Radius Server on your LAN to provide the client authentication ac-

cording to the 802.1x standard. Data transmissions are encrypted using the WPA standard. WPA2-Radius - This version of WPA2 requires a Radius Server on your LAN to provide the client authentication ac-

cording to the 802.1x standard. Data transmissions are encrypted using the WPA2 standard. The available options depend on the Authentication method selected above. The possible options are:

Security Off - No data encryption is used. WEP - If selected, you must enter the WEP data shown below. This WEP data must match the Access Point or other Wireless stations. AES, TKIP - These options are available with WPA-PSK, WPA2-PSK, WPA-Radius and WPA2-Radius. Select the correct option. Enable this check box and enter a word or group of printable characters in the Passphrase box, select the desired encryption to automatically configure the WEP Key. Enable this check box and select the desired key in the drop-

down list. Then enter the key values you wish to use and select the desired encryption. Other stations must have matching key values. For WPA-PSK and WPA2-PSK modes, you need to enter the desired value (8~63 characters). Data is encrypted using a 256Bit key derived from this key. Other Wireless Stations must use the same key. For WPA-PSK and WPA2-PSK modes, re-enter the value in this field. For WPA Radius and WPA2 Radius modes, select the desired option in the drop-down list. 9 Encryption Method Create with Passphrase Enter Key Manually Passphrase Confirm 802.1x Authentication Protocol Wireless Adapter User Guide Configure WPA Radius For WPA Radius and WPA2 Radius modes, click this button to open a sub-window where you can enter details of the Radius Server. To add a profile 1. On the Profile Manager tab, complete the settings on this screen. 2. Verify that the settings you configured are correct. 3. Click Save Profile. To export profiles 1. On the Profile Manager tab, click Export Profiles. The Save As dialog box appears. 2. Type a name for the profile that you are saving, and then verify that the file name exten-

sion is set to .cfg. 3. Click Save. To import profiles 1. On the Profile Manager tab, click Import Profiles. The open dialog box appears. 2. Select the profile set that you want to import. 3. Click Open. To delete a profile 1. On the Profile Manager tab, select the profile that you want to delete. 2. Click Delete Profile. To edit a profile 1. On the Profile Manager tab, select the profile that you want to edit. 2. Change the profile settings as necessary. 3. Click Save Profile. To enable a profile 1. 2. Click Apply Profile. In the list of available profiles, click the profile that you want to enable. 10 Using the Windows Utility Advanced Settings Screen Once you have created a profile, as described above, the Advanced Settings tab will be available on the Profile Manager screen. Figure 9: Advanced Settings Screen Enable this check box if you dont want to modify the settings in this screen. Data - Advanced Settings Screen Do not change settings Preamble (2.4GHz) Normally, this should be left at "Auto". Transmit Rate Fragment Thresh-

old RTS/CTS Threshold The default value is 2346. In some cases, you may be able to Use this to manually set the speed, if desired. The default is "Auto". The default value is 2346. In some cases, you may be able to improve performance by adjusting this value. improve performance by adjusting this value. 802.11n Enable 802.11n Network Channel Width Guard Interval Extension Channel Antenna Selection Enable this if you want to use the 802.11n network. Select the desired channel width. Use this to manually set the interval, if desired. The default is

"Auto". Select the desired channel. Select the desired option. The default is set to "Auto". 11 Wireless Adapter User Guide Network Status Screen This screen displays the status of the current wireless link. Clicking the Network Status tab will display a screen like the following. Figure 10: Network Status Screen You may have to wait a few seconds for the screen to be populated. Data - Network Status Screen Link Information Current Status Network SSID Network BSSID Network Type Security Mode Tx/Rx Speed Internet Protocol DHCP Option IP Address Subnet Mask It will indicate the current link status. It shows the SSID or network name of the selected wireless network. It shows the MAC address of the access point. This will indicate "Infrastructure" or "Ad-hoc". It shows the wireless security that the wireless network is using. It shows the current wireless connection speed. It shows if the IP address was automatically obtained from a DHCP server. It shows the current IP address on the wireless interface. Subnet mask for the current IP address. 12 Using the Windows Utility Default Gateway DHCP Server Channel Performance Channel Performance Signal Signal Gateway IP address associated with the current IP address. It shows the IP address of the DHCP Server. It graphically presents the Transmission (Tx) rate and Receiving

(Rx) rate over time. It graphically presents the Signal strength. About Screen This screen displays details of the traffic sent or received on the current Wireless network. Figure 11: About Screen This tab shows the following information:

Regional Domain Firmware Version Driver Version MAC Address Wireless DLL Version Wireless Utility Version 13 Appendix A Specifications A USB Adapter Model Chipset:

RF Chip:

Bus Type:

Data Rates:

Frequency Band:

Wireless Medium:

Media Access Protocol: CSMA/CA Operating Channels:

Receive Sensitivity:

UB801RE RealTek RTL8187 RealTek RTL8225 USB 2.0 54, 48, 36, 24, 18, 12, 9, and 6 Mbps (802.11g) 11, 5.5, 2, 1 Mbps (802.11b) 2.4GHz to 2.5GHz DSSS and OFDM 802.11g 802.11b 1-14(FCC:1-11ETSI:1-13Japan:1-14 ) 54 Mbps: -71 dBm 48 Mbps: -73 dBm 36 Mbps: -77 dBm 24 Mbps: -81 dBm 18 Mbps: -83 dBm 12 Mbps: -83 dBm 9 Mbps: -83 dBm 6 Mbps: -83 dBm 11 Mbps: -87 dBm 5.5 Mbps: -88 dBm 2 Mbps: -89 dBm 1 Mbps: -89 dBm DSSS (Direct Sequence Spread Spectrum) Wireless Medium:

Media Access Protocol: CSMA/CA Transmit Power:

802.11g: 142 dBm 802.11b: 162 dBm Security:

64/128-bit WEP WPAWi-Fi Protected Access Standards Conformance: WPA certified, IEEE 802.11g, IEEE 802.11b 14 Appendix A - Specifications EMI:

Environmental Range:

FCC, CE Operating temperature: 0o to 40oC (32o to 104oF) Operating humidity: 0 to 90% non-condensing System Requirements Notebook or desktop PC with USB port; USB 2.0 required for 54 Mbps data rate Notebook or desktop PC must be running Windows XP/2000 15 Appendix B About Wireless LANs B This Appendix provides some background information about using Wireless LANs (WLANs). Modes Wireless LANs can work in either of two (2) modes:

Ad-hoc Ad-hoc Mode Infrastructure Ad-hoc mode does not require an Access Point or a wired (Ethernet) LAN. Wireless Sta-

tions (e.g. notebook PCs with wireless cards) communicate directly with each other. Infrastructure Mode In Infrastructure Mode, one or more Access Points are used to connect Wireless Stations

(e.g. Notebook PCs with wireless cards) to a wired (Ethernet) LAN. The Wireless Stations can then access all LAN resources. Access Points can only function in "Infrastructure" mode, and can communicate only with Wireless Stations which are set to "Infrastructure" mode. BSS/ESS BSS A group of Wireless Stations and a single Access Point, all using the same ID (SSID), form a Basic Service Set (BSS). Using the same SSID is essential. Devices with different SSIDs are unable to communicate with each other. ESS A group of Wireless Stations, and multiple Access Points, all using the same ID (ESSID), form an Extended Service Set (ESS). Different Access Points within an ESS can use different Channels. In fact, to reduce interfer-

ence, it is recommended that adjacent Access Points SHOULD use different channels. As Wireless Stations are physically moved through the area covered by an ESS, they will automatically change to the Access Point which has the least interference or best performance. This capability is called Roaming. (Access Points do not have or require Roaming capabilities.) 16 Appendix B - About Wireless LANs Channels The Wireless Channel sets the radio frequency used for communication. Access Points use a fixed Channel. You can select the Channel used. This allows you to choose a Channel which provides the least interference and best performance. In the USA and Canada, 11 channels are available. If using multiple Access Points, it is better if adja-

cent Access Points use different Channels to reduce interference. In "Infrastructure" mode, Wireless Stations normally scan all Channels, looking for an Access Point. If more than one Access Point can be used, the one with the strongest signal is used. (This can only happen within an ESS.) If using "Ad-hoc" mode (no Access Point), all Wireless stations should be set to use the same Channel. However, most Wireless stations will still scan all Channels to see if there is an existing "Ad-hoc" group they can join. WEP & WPA-PSK Both WEP and WPA-PSK are standards for encrypting data before it is transmitted. This is desirable because it is impossible to prevent snoopers from receiving any data which is transmitted by your Wireless Stations. But if the data is encrypted, then it is meaningless unless the receiver can decrypt it. WPA-PSK is a later standard than WEP, and is more secure. Wireless LAN Configuration To allow Wireless Stations to use the Access Point, the Wireless Stations and the Access Point must use the same settings, as follows:

Mode On client Wireless Stations, the mode must be set to "Infrastructure".

(The Access Point is always in "Infrastructure" mode.) SSID (ESSID) Wireless Stations should use the same SSID (ESSID) as the Access Point they wish to connect to. Alternatively, the SSID can be set to "any"

or null (blank) to allow connection to any Access Point. The Wireless Stations and the Access Point must use the same settings for Wireless security (Disabled, WEP, WPA-PSK) WEP - If WEP is used, the WEP Key must be the same on the Wireless Stations and the Access Point. WEP Authentication ("Open System" or

"Shared Key") must also be the same, unless the Access Point supports both methods simultaneously. WPA-PSK - If using WPA-PSK, all wireless stations and the Access Point must use the same key and encryption method. Security 17

FCC Test Report: FI06012401-E 06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 2 of 4 FCC Test Report: FI06012401-E 06012401-E 06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 3 of 4 FCC Test Report: FI06012401-E 06012401-E 06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 4 of 4

Appendix A. Photographs of EUT FCC Test Report: FI06012401-E 06012401-E 06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 1 of 4

Report No071L130-HPUSP09V01 SAR Test Report Product Name IEEE802.11g Wireless USB Adapter Model No. UB801RE v2 Applicant SerComm Corporation Address 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. Date of Receipt 2006/03/10 Issued Date 2007/01/26 Report No. 071L130-HPUSP09V01 The test results relate only to the samples tested. The test report shall not be reproduced except in full without the written approval of QuieTek Corporation. Page: 1 of 22 Version:1.0 Report No071L130-HPUSP09V01 Test Report Certification Issued Date: 2007/01/26 Report No.:071L130-HPUSP09V01 Product Name IEEE802.11g Wireless USB Adapter Applicant Address SerComm Corporation 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. Manufacturer SerComm Corporation Model No. Trade Name Applicable Standard Test Result UB801RE v2 SerComm FCC Oet65 Supplement C June 2001 Max. SAR Measurement (1g) 802.11b: 0.532 W/kg 802.11g: 0.363 W/kg Certification Application Type The test results relate only to the samples tested. The test report shall not be reproduced except in full without the written approval of QuieTek Corporation. Documented By Tested By Approved By

(Engineering Adm. Assistant)

( S e n i o r E n g i n e e r )

(Vice President / George Chen) Page: 2 of 22 Version:1.0 Report No071L130-HPUSP09V01 TABLE OF CONTENTS 2. Description Page 1. General Information.............................................................................. 5 1.1 EUT Description ............................................................................................................5 1.2 Test Environment ...........................................................................................................5 SAR Measurement System .................................................................. 6 2.1 ALSAS-10U System Description ..................................................................................6 2.1.1 Applications ................................................................................................................6 2.1.2 Area Scans...................................................................................................................6 2.1.3 Zoom Scan (Cube Scan Averaging)............................................................................7 2.1.4 ALSAS-10U Interpolation and Extrapolation Uncertainty.........................................7 2.2 Isotropic E-Field Probe ..................................................................................................7 2.2.1 Isotropic E-Field Probe Specification.........................................................................9 2.3 Boundary Detection Unit and Probe Mounting Device.................................................9 2.4 Daq-Paq (Analog to Digital Electronics).....................................................................10 2.5 Axis Articulated Robot ................................................................................................10 2.6 ALSAS Universal Workstation....................................................................................11 2.7 Universal Device Positioner.........................................................................................11 2.8 Phantom Types.............................................................................................................11 2.8.1 APREL SAM Phantoms ...........................................................................................12 2.8.2 APREL Laboratories Universal Phantom.................................................................12 Tissue Simulating Liquid ................................................................... 13 3.1 The composition of the tissue simulating liquid ..........................................................13 3.2 Tissue Calibration Result .............................................................................................13 3.3 Tissue Dielectric Parameters for Head and Body Phantoms .......................................14 SAR Measurement Procedure ........................................................... 15 4.1 SAR System Validation................................................................................................15 4.1.1 Validation Dipoles.....................................................................................................15 4.1.2 Validation Result.......................................................................................................15 4.2 SAR Measurement Procedure......................................................................................16 5. SAR Exposure Limits ......................................................................... 17 6. Test Equipment List............................................................................ 18 7. Measurement Uncertainty.................................................................. 19 8. Test Results......................................................................................... 20 3. 4. 8.1 SAR Test Results Summary.........................................................................................20 Appendix A. SAR System Validation Data........................................................................22 Appendix B. SAR measurement Data................................................................................22 Page: 3 of 22 Version:1.0 Report No071L130-HPUSP09V01 Appendix C. Test Setup Photographs & EUT Photographs...............................................22 Appendix D. Probe Calibration Data .................................................................................22 Appendix E. Dipole Calibration Data................................................................................22 Page: 4 of 22 Version:1.0 1. General Information Report No071L130-HPUSP09V01 1.1 EUT Description Product Name Trade Name Model No. FCC ID TX Frequency Number of Channel IEEE802.11g Wireless USB Adapter SerComm UB801RE v2 P27UB801Re 2412MHz ~ 2462MHz 11 Type of Modulation Antenna Type Device Category RF Exposure Environment Transfer Rate Max. Output Power

(Conducted) DSSS/OFDM Internal Portable Uncontrolled 802.11b: 11Mbps 802.11g: 54Mbps 802.11b: 19.44dBm 802.11g: 15.3dBm 1.2 Test Environment Ambient conditions in the laboratory:

Items Temperature (C) Humidity (%RH) Required 18-25 30-70 Actual 20.2 50 Page: 5 of 22 Version:1.0 Report No071L130-HPUSP09V01 SAR Measurement System 2. 2.1 ALSAS-10U System Description ALSAS-10-U is fully compliant with the technical and scientific requirements of IEEE 1528, IEC 62209, CENELEC, ARIB, ACA, and the Federal Communications Commission. The system comprises of a six axes articulated robot which utilizes a dedicated controller. ALSAS-10U uses the latest methodologies and FDTD odeling is repeatable with minimum uncertainty. to provide aplatform which 2.1.1 Applications Predefined measurement procedures compliant with the guidelines of CENELEC, IEEE, IEC, FCC, etc are utilized during the assessment for the device. Automatic detection for all SAR maxima are embedded within the core architecture for the system, ensuring that peak locations used for centering the zoom scan are within a 1mm resolution and a 0.05mm repeatable position. System operation range currently available up-to 6 GHz in simulated tissue. 2.1.2 Area Scans Area scans are defined prior to the measurement process being executed with a user defined variable spacing between each measurement point (integral) allowing low uncertainty measurements to be conducted. Scans defined for FCC applications utilize a 10mm step integral, with 1mm interpolation used to locate the peak SAR area used for zoom scan assessments. Where the system identifies multiple SAR peaks (which are within 25% of peak value) the system will provide the user with the option of assessing each peak location individually for zoom scan averaging. Page: 6 of 22 Version:1.0 Report No071L130-HPUSP09V01 2.1.3 Zoom Scan (Cube Scan Averaging) The averaging zoom scan volume utilized in the ALSAS-10U software is in the shape of a cube and the side dimension of a 1 g or 10 g mass is dependent on the density of the liquid representing the simulated tissue. A density of 1000 kg/m is used to represent the head and body tissue density and not the phantom liquid density, in order to be consistent with the definition of the liquid dielectric properties, i.e. the side length of the 1 g cube is 10mm, with the side length of the 10 g cube 21,5mm. When the cube intersects with the surface of the phantom, it is oriented so that 3 vertices touch the surface of the shell or the center of a face is tangent to the surface. The face of the cube closest to the surface is modified in order to conform to the tangent surface. The zoom scan integer steps can be user defined so as to reduce uncertainty, but normal practice for typical test applications (including FCC) utilize a physical step of 5x5x8

(8mmx8mmx5mm) providing a volume of 32mm in the X & Y axis, and 35mm in the Z axis. 2.1.4 ALSAS-10U Interpolation and Extrapolation Uncertainty The overall uncertainty for the methodology and algorithms the used during the SAR calculation was evaluated using the data from IEEE 1528 based on the example f3 algorithm:

2.2 Isotropic E-Field Probe The isotropic E-Field probe has been fully calibrated and assessed for isotropicity, and boundary effect within a controlled environment. Depending on the frequency for which the probe is calibrated the method utilized for calibration will change. A number of methods is used for calibrating probes, and these are outlined in the table below:

Calibration Frequency 2450MHz Air Calibration Waveguide Tissue Calibration Temperature Page: 7 of 22 Version:1.0 Report No071L130-HPUSP09V01 The E-Field probe utilizes a triangular sensor arrangement as detailed in the diagram below:

SAR is assessed with a calibrated probe which moves at a default height of 5mm from the center of the diode, which is mounted to the sensor, to the phantom surface (in the Z Axis). The 5mm offset height has been selected so as to minimize any resultant boundary effect due to the probe being in close proximity to the phantom surface. The following algorithm is an example of the function used by the system for linearization of the output from the probe when measuring complex modulation schemes. Page: 8 of 22 Version:1.0 2.2.1 Isotropic E-Field Probe Specification Report No071L130-HPUSP09V01 Calibration in Air Sensitivity Dynamic Range Isotropic Response Diode Compression point

(DCP) Probe Tip Radius Sensor Offset Probe Length Video Bandwidth Boundary Effect Spatial Resolution Frequency Dependent Below 2GHz Calibration in air performed in a TEM Cell Above 2GHz Calibration in air performed in waveguide 0.70 V/(V/m) to 0.85 V/(V/m) 0.0005 W/kg to 100W/kg Better than 0.2dB Calibration for Specific Frequency

< 5mm 1.56 (+/- 0.02mm) 290mm

@ 500 Hz: 1dB

@1.02 KHz: 3dB Less than 2% for distance greater than 2.4mm Diameter less than 5mm Compliant with Standards 2.3 Boundary Detection Unit and Probe Mounting Device ALSAS-10U incorporates a boundary detection unit with a sensitivity of 0.05mm for detecting all types of surfaces. The robust design allows for detection during probe tilt

(probe normalize) exercises, and utilizes a second stage emergency stop. The signal electronics are fed directly into the robot controller for high accuracy surface detection in lateral and axial detection modes (X, Y, & Z). The probe is mounted directly onto the Boundary Detection unit for accurate tooling and displacement calculations controlled by the robot kinematics. The probe is connect to an isolated probe interconnect where the output stage of the probe is fed directly into the amplifier stage of the Daq-Paq Page: 9 of 22 Version:1.0 Report No071L130-HPUSP09V01 2.4 Daq-Paq (Analog to Digital Electronics) ALSAS-10U incorporates a fully calibrated Daq-Paq (analog to digital conversion system) which has a 4 channel input stage, sent via a 2 stage auto-set amplifier module. The input signal is amplified accordingly so as to offer a dynamic range from 5V to 800mV. Integration of the fields measured is carried out at board level utilizing a Co-Processor which then sends the measured fields down into the main computational module in digitized form via an RS232 communications port. Probe linearity and duty cycle compensation is carried out within the main Daq-Paq module. ADC Amplifier Range Field Integration Number of Input Channels Communication 2.5 Axis Articulated Robot 12 Bit 20mV to 200mV and 150mV to 800mV Local Co-Processor utilizing proprietary integration algorithms 4 in total 3 dedicated and 1 spare Packet data via RS232 ALSAS-10U utilizes a six axis articulated robot, which is controlled using a Pentium based real-time movement controller. The movement kinematics engine utilizes proprietary (Thermo CRS) interpolation and extrapolation algorithms, which allow full freedom of movement for each of the six joints within the working envelope. Utilization of joint 6 allows for full probe rotation with a tolerance better than 0.05mm around the central axis. Robot/Controller Manufacturer Number of Axis Positioning Repeatability Controller Type Robot Reach Communication Thermo CRS Six independently controlled axis 0.05mm Single phase Pentium based C500C 710mm RS232 and LAN compatible Page: 10 of 22 Version:1.0 Report No071L130-HPUSP09V01 2.6 ALSAS Universal Workstation ALSAS Universal workstation allows for repeatability and fast adaptability. It allows users to do calibration, testing and measurements using different types of phantoms with one set up, which significantly speeds up the measurement process. 2.7 Universal Device Positioner The universal device positioner allow complete freedom of movement of the EUT. Developed to hold a EUT in a free-space scenario any additional loading attributable to the material used in the construction of the positioner has been eliminated. Repeatability has been enhanced through the linear scales which form the design used to indicate positioning for any given test scenario in all major axes. A 15 tilt indicator is included for the of aid cheek to tilt movements for head SAR analysis. Overall uncertainty for measurements have been reduced due to the design of the Universal device positioner, which allows positioning of a device in as near to a free-space scenario as possible, and by providing the means for complete repeatability. 2.8 Phantom Types The ALSAS-10U allows the integration of multiple phantom types. SAM Phantoms fully compliant with IEEE 1528, Universal Phantom, and Universal Flat. Page: 11 of 22 Version:1.0 2.8.1 APREL SAM Phantoms Report No071L130-HPUSP09V01 The SAM phantoms developed using the IEEE SAM CAD file. They are fully compliant with the requirements for both IEEE 1528 and FCC Supplement C. Both the left and right SAM phantoms are interchangeable, transparent and include the IEEE 1528 grid with visible NF and MB lines. 2.8.2 APREL Laboratories Universal Phantom The Universal Phantom is used on the ALSAS-10U as a system validation phantom.The Universal Phantom has been fully validated both experimentally from 800MHz to 6GHz and numerically using XFDTD numerical software. The shell thickness is 2mm overall, with a 4mm spacer located at the NF/MB intersection providing an overall thickness of 6mm in line with the requirements of IEEE-1528. The design allows for fast and accurate measurements, of handsets, by allowing the conservative SAR to be evaluated at on frequency for both left and right head experiments in one measurement. Page: 12 of 22 Version:1.0 Report No071L130-HPUSP09V01 3. Tissue Simulating Liquid 3.1 The composition of the tissue simulating liquid INGREDIENT

(% Weight) 900MHz Head 1800MHz Head Water Salt Sugar HEC Preventol DGBE

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2450MHz 2450MHz Head 46.7 0.00 0.00 0.00 0.00 53.3 Body 73.2 0.04 0.00 0.00 0.00 26.7 3.2 Tissue Calibration Result The dielectric parameters of the liquids were verified prior to the SAR evaluation using APREL Dielectric Probe Kit and Anritsu MS4623B Vector Network Analyzer Head Tissue Simulant Measurement Frequency Description

[MHz]

2450MHz Reference result 5% window 14-Mar-06 Dielectric Parameters r 39.2

[s/m]

1.8 37.24 to 41.16 1.71 to 1.89 38.3 1.852 Body Tissue Simulant Measurement Frequency Description

[MHz]

2450MHz 2412 MHz 2437 MHz 2462 MHz Reference result 5% window 14-Mar-06 Low channel Mid channel High channel 50.065 to 55.335 1.8525 to 2.0475 Dielectric Parameters r 52.7

[s/m]

1.95 51.31 51.64 51.42 51.21 1.979 2.009 1.988 1.968 Tissue Temp.

[C]

N/A 19.7 Tissue Temp.

[C]

N/A 19.7 19.7 19.7 19.7 Page: 13 of 22 Version:1.0 Report No071L130-HPUSP09V01 3.3 Tissue Dielectric Parameters for Head and Body Phantoms The head tissue dielectric parameters recommended by the IEEE SCC-34/SC-2 in P1528 have been incorporated in the following table. These head parameters are derived from planar layer models simulating the highest expected SAR for the dielectric properties and tissue thickness variations in a human head. Other head and body tissue parameters that have not been specified in P1528 are derived from the tissue dielectric parameters computed from the 4-Cole-Cole equations described in Reference [12] and extrapolated according to the head parameters specified in P1528. Target Frequency Head Body

(MHz) 150 300 450 835 900 915 1450 1610 1800 2000 2450 3000 5800 r 52.3 45.3 43.5 41.5 41.5 41.5 40.5 40.3 40.0 39.2 38.5 35.3

(S/m) 0.76 0.87 0.87 0.90 0.97 0.98 1.20 1.29 1.40 1.80 2.40 5.27 r 61.9 58.2 56.7 55.2 55.0 55.0 54.0 53.8 53.3 52.7 52.0 48.2

(S/m) 0.80 0.92 0.94 0.97 1.05 1.06 1.30 1.40 1.52 1.95 2.73 6.00

(r = relative permittivity, = conductivity and = 1000 kg/m3) Page: 14 of 22 Version:1.0 Report No071L130-HPUSP09V01 SAR Measurement Procedure 4. 4.1 SAR System Validation 4.1.1 Validation Dipoles The dipoles used is based on the IEEE-1528 standard, and is complied with mechanical and electrical specifications in line with the requirements of both IEEE and FCC Supplement C. the table below provides details for the mechanical and electrical specifications for the dipoles. Frequency 2450MHz L (mm) 53.5 h (mm) 30.4 d (mm) 3.6 4.1.2 Validation Result System Performance Check at 2450MHz Validation Kit: ASL-D-2450-S-2 Frequency SAR [w/kg]

SAR [w/kg]

[MHz]

Description 2450 MHz Reference result 5% window 14-Mar-06 1g 52.4 10g 24 49.78 to 55.02 22.8 to 25.2 53.092 23.98 Tissue Temp.

[C]

N/A 19.7 Note: All SAR values are normalized to 1W forward power. Page: 15 of 22 Version:1.0 Report No071L130-HPUSP09V01 4.2 SAR Measurement Procedure The ALSAS-10U calculates SAR using the following equation,

: represents the simulated tissue conductivity

: represents the tissue density The EUT is set to transmit at the required power in line with product specification, at each frequency relating to the LOW, MID, and HIGH channel settings. Pre-scans are made on the device to establish the location for the transmitting antenna, using a large area scan in either air or tissue simulation fluid. The EUT is placed against the Universal Phantom where the maximum area scan dimensions are larger than the physical size of the resonating antenna. When the scan size is not large enough to cover the peak SAR distribution, it is modified by either extending the area scan size in both the X and Y directions, or the device is shifted within the predefined area. The area scan is then run to establish the peak SAR location (interpolated resolution set at 1mm )which is then used to orient the center of the zoom scan. The zoom scan is then executed and the 1g and 10g averages are derived from the zoom scan volume

(interpolated resolution set at 1mm ). Page: 16 of 22 Version:1.0 Report No071L130-HPUSP09V01 SAR Exposure Limits 5. SAR assessments have been made in line with the requirements of IEEE-1528, FCC Supplement C, and comply with ANSI/IEEE C95.1-1992 Uncontrolled Environments limits. These limits apply to a location which is deemed as Uncontrolled Environment which can be described as a situation where the general public may be exposed to an RF source with no prior knowledge or control over their exposure. Limits for General Population/Uncontrolled Exposure (W/kg) Type Exposure Uncontrolled Environment Limit Spatial Peak SAR (1g cube tissue for brain or body) Spatial Average SAR (whole body) Spatial Peak SAR (10g for hands, feet, ankles and wrist) 1.60 W/kg 0.08 W/kg 4.00 W/kg Page: 17 of 22 Version:1.0 6. Test Equipment List Report No071L130-HPUSP09V01 Instrument Manufacturer Model No. Serial No. Last Data Acquisition Package Aprel Laboratories Probe Aprel Laboratories Probe Aprel Reference Dipole 900Mhz Aprel Reference Dipole 1800Mhz Aprel Reference Dipole 2450Mhz Boundary Detection Sensor System Dielectric Probe Kit Universal Work Station Device Holder 2.0 Left Ear SAM Phantom Right Ear SAM Phantom Universal Phantom Aprel Dipole Spacer SAR Software CRS C500C Controller CRF F3 Robot Power Amplifier Directional Coupler Universal Radio Communication Tester Vector Network Signal Generator Power Meter Wide Bandwidth Sensor Aprel Aprel Aprel Aprel ALS-DAQ-PAQ-2 QTK-337 ALS-E020 ALS-E020 264 265 ALS-D-900-S-2 QTK-316 Calibration Nov. 2005 Mar. 2005 Mar. 2005 Jun. 2004 Aprel ALS-D-1800-S-2 QTK-317 Jun. 2004 Aprel ALS-D-2450-S-2 QTK-319 Jun. 2004 Aprel ALS-PMDPS-2 QTK-336 Aprel Aprel Aprel Aprel Aprel Aprel Aprel Aprel Thermo Thermo Mini-Circuit Agilent Rohde &

Schwarz Anritsu Anritsu Anritsu Anritsu ALS-PR-DIEL ALS-UWS ALS-H-E-SET-2 ALS-P-SAM-L ALS-P-SAM-R ALS-P-UP-1 ALS-DS-U ALSAS-10 ALS-C500 ALS-F3 ZHL-42 778D-012 CMU 200 MS4623B MG3692A ML2487A MA2491 QTK-296 QTK-326 QTK-294 QTK-292 QTK-288 QTK-246 QTK-295 Ver. 2.3.0 RCF0404433 RAF0412222 D051404-20 50550 104846 992801 042319 6K00001447 030677 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A Mar. 2006 Mar 2005 Jun. 2005 Jan. 2006 Jan. 2006 Page: 18 of 22 Version:1.0 Report No071L130-HPUSP09V01 7. Measurement Uncertainty Page: 19 of 22 Version:1.0 Report No071L130-HPUSP09V01 8. Test Results 8.1 SAR Test Results Summary SAR MEASUREMENT Ambient Temperature (C) : 20.22 Relative Humidity (%): 50 Liquid Temperature (C) : 19.72 Depth of Liquid (cm):>15 Product: IEEE802.11g Wireless USB Adapter Test Mode: 802.11b Test Position Body Back Back Back Front Front Front Top Top Top Antenna Position Internal Internal Internal Internal Internal Internal Internal Internal Internal Frequency Channel 1 6 11 1 6 11 1 6 11 MHz 2412 2437 2462 2412 2437 2462 2412 2437 2462 Conducted Power

(dBm) SAR 1g

(W/kg) Limit

(W/kg) 19.25 19.27 19.44 19.25 19.27 19.44 19.25 19.27 19.44 0.216 0.204 0.286 0.421 0.441 0.532

**

0.117

**

1.6 1.6 1.6 1.6 1.6 1.6 1.6 1.6 1.6 Note:

The SAR measured at the middle channel for this configuration is at least 3 dB lower than SAR limit, testing at the high and low channels is option. Page: 20 of 22 Version:1.0 Report No071L130-HPUSP09V01 SAR MEASUREMENT Ambient Temperature (C) : 20.22 Relative Humidity (%): 50 Liquid Temperature (C) : 19.72 Depth of Liquid (cm):>15 Product: IEEE802.11g Wireless USB Adapter Test Mode: 802.11g Test Position Head Back Back Back Front Front Front Top Top Top Antenna Position Internal Internal Internal Internal Internal Internal Internal Internal Internal Frequency Channel 1 6 11 1 6 11 1 6 11 MHz 2412 2437 2462 2412 2437 2462 2412 2437 2462 Conducted Power

(dBm) SAR 1g

(W/kg) Limit

(W/kg) 15.2 15.3 14.95 15.2 15.3 14.95 15.2 15.3 14.95 0.178 0.211 0.235 0.363 0.337 0.315

**

**

**

1.6 1.6 1.6 1.6 1.6 1.6 1.6 1.6 1.6 Note:

The SAR measured at the Top position for this configuration is at least 3 dB lower than SAR limit, Page: 21 of 22 Version:1.0 Report No071L130-HPUSP09V01 Appendix A. SAR System Validation Data Appendix B. SAR measurement Data Appendix C. Test Setup Photographs & EUT Photographs Appendix D. Probe Calibration Data Appendix E. Dipole Calibration Data Page: 22 of 22 Version:1.0 Report No071L130-HPUSP09V01 SAR System Validation Data ALSAS-10U VER 2.3.0 APREL Laboratories SAR Test Report Validation Date : 14-Mar-2006 Measurement Date : 14-Mar-2006 Product Data Device Name : Dipole-2450 Type : Dipole Frequency : 2450.00 MHz Max. Transmit Pwr : 0.25 W Drift Time : 0 min(s) Length : 51.5 mm Width : 3.6 mm Depth : 30.4 mm Power Drift-Start : 11.274 W/kg Power Drift-Finish: 11.414 W/kg Power Drift (%) : 1.240 Phantom Data Name : APREL-Uni Type : Uni-Phantom Size (mm) : 280 x 280 x 200 Location : Center Tissue Data Type : HEAD Serial No. : 325-H Frequency : 2450.00 MHz Last Calib. Date : 14-Mar-2006 Temperature : 19.70 C Ambient Temp. : 20.20 C Humidity : 50.00 RH%

Epsilon : 38.30 F/m Sigma : 1.852 S/m Density : 1000.00 kg/cu. m Probe Data Name : Probe 265 Model : E020 Type : E-Field Triangle Serial No. : 265 Last Calib. Date : 23-Mar-2005 Frequency : 2450.00 MHz Duty Cycle Factor: 1 Conversion Factor: 4.6 Probe Sensitivity: 1.20 1.20 1.20 V/(V/m)2 Compression Point: 95.00 mV Offset : 1.56 mm Page: 1 of 3 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 19.70 C Ambient Temp. : 20.20 C Area Scan : 5x5x1 : Measurement x=12mm, y=12mm, z=4mm Zoom Scan : 5x5x8 : Measurement x=8mm, y=8mm, z=4mm Frequency : 2450 2450 MHz dipole 1 gram SAR value : 13.273 W/kg 10 gram SAR value : 5.995 W/kg Area Scan Peak SAR : 15.088 W/kg Zoom Scan Peak SAR : 27.623 W/kg Page: 2 of 3 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 3 of 3 Version:1.0 Report No071L130-HPUSP09V01 SAR Measurement Data ALSAS-10U VER 2.3.0APREL Laboratories SAR Test Report(802.11b) Validation Date : 14-Mar-2006 Measurement Date : 14-Mar-2006 Product Data Device Name : USB wireless Model : WG111v2 Frequency : 2450.00 MHz Length : 88 mm Width : 26 mm Depth : 12 mm Antenna Type : Internal Phantom Data Type : Uni-Phantom Size (mm) : 280 x 280 x 200 Location : Center Tissue Data Type : BODY Serial No. : 325-B Frequency : 2450.00 MHz Last Calib. Date : 14-Mar-2005 Temperature : 20.20 C Ambient Temp. : 19.70 C Humidity : 50.00 RH%

Epsilon : 51.31 F/m Sigma : 1.979 S/m Density : 1000.00 kg/cu. m Probe Data Name : Probe 265 Model : E020 Type : E-Field Triangle Serial No. : 265 Last Calib. Date : 23-Mar-2005 Frequency : 2450.00 MHz Duty Cycle Factor: 1 Conversion Factor: 4.7 Probe Sensitivity: 1.20 1.20 1.20 V/(V/m)2 Compression Point: 95.00 mV Offset : 1.56 mm Page: 1 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.178 W/kg Power Drift-Finish: 0.175 W/kg Power Drift (%) : -1.524 DUT Position : 802.11b-Front Channel : 1 EUT 1 gram SAR value : 0.216 W/kg 10 gram SAR value : 0.171 W/kg Area Scan Peak SAR : 0.198 W/kg Zoom Scan Peak SAR : 0.230 W/kg Page: 2 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 3 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.236 W/kg Power Drift-Finish: 0.232 W/kg Power Drift (%) : -1.094 DUT Position : 802.11b-Front Channel : 6 EUT 1 gram SAR value : 0.204 W/kg 10 gram SAR value : 0.138 W/kg Area Scan Peak SAR : 0.246 W/kg Zoom Scan Peak SAR : 0.490 W/kg Page: 4 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 5 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.255 W/kg Power Drift-Finish: 0.252 W/kg Power Drift (%) : -1.198 DUT Position : 802.11b-Front Channel : 11 EUT 1 gram SAR value : 0.286 W/kg 10 gram SAR value : 0.211 W/kg Area Scan Peak SAR : 0.270 W/kg Zoom Scan Peak SAR : 0.460 W/kg Page: 6 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 7 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.360 W/kg Power Drift-Finish: 0.371 W/kg Power Drift (%) : 2.844 DUT Position : 802.11b-Back Channel : 1 EUT 1 gram SAR value : 0.421 W/kg 10 gram SAR value : 0.246 W/kg Area Scan Peak SAR : 0.454 W/kg Zoom Scan Peak SAR : 0.660 W/kg Page: 8 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 9 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.200 W/kg Power Drift-Finish: 0.197 W/kg Power Drift (%) : -1.397 DUT Position : 802.11b-Back Channel : 6 EUT 1 gram SAR value : 0.441 W/kg 10 gram SAR value : 0.250 W/kg Area Scan Peak SAR : 0.569 W/kg Zoom Scan Peak SAR : 0.850 W/kg Page: 10 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 11 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.499 W/kg Power Drift-Finish: 0.479 W/kg Power Drift (%) : -4.127 DUT Position : 802.11b-Back Channel : 11 EUT 1 gram SAR value : 0.532 W/kg 10 gram SAR value : 0.299 W/kg Area Scan Peak SAR : 0.602 W/kg Zoom Scan Peak SAR : 0.920 W/kg Page: 12 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 13 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 4x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.081 W/kg Power Drift-Finish: 0.083 W/kg Power Drift (%) : 2.750 DUT Position : 802.11b-Top Channel : 6 EUT 1 gram SAR value : 0.117 W/kg 10 gram SAR value : 0.105 W/kg Area Scan Peak SAR : 0.161 W/kg Zoom Scan Peak SAR : 0.220 W/kg Page: 14 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 15 of 30 Version:1.0 Report No071L130-HPUSP09V01 ALSAS-10U VER 2.3.0APREL Laboratories SAR Test Report(802.11g) Validation Date : 14-Mar-2006 Measurement Date : 14-Mar-2006 Product Data Device Name : USB wireless Model : WG111v2 Frequency : 2450.00 MHz Length : 88 mm Width : 26 mm Depth : 12 mm Antenna Type : Internal Phantom Data Type : Uni-Phantom Size (mm) : 280 x 280 x 200 Location : Center Tissue Data Type : BODY Serial No. : 325-B Frequency : 2450.00 MHz Last Calib. Date : 14-Mar-2005 Temperature : 20.20 C Ambient Temp. : 19.70 C Humidity : 50.00 RH%

Epsilon : 51.31 F/m Sigma : 1.979 S/m Density : 1000.00 kg/cu. m Probe Data Name : Probe 265 Model : E020 Type : E-Field Triangle Serial No. : 265 Last Calib. Date : 23-Mar-2005 Frequency : 2450.00 MHz Duty Cycle Factor: 1 Conversion Factor: 4.7 Probe Sensitivity: 1.20 1.20 1.20 V/(V/m)2 Compression Point: 95.00 mV Offset : 1.56 mm Page: 16 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.145 W/kg Power Drift-Finish: 0.139 W/kg Power Drift (%) : -3.788 DUT Position : 802.11g-Front Channel : 1 EUT 1 gram SAR value : 0.178 W/kg 10 gram SAR value : 0.136 W/kg Area Scan Peak SAR : 0.167 W/kg Zoom Scan Peak SAR : 0.230 W/kg Page: 17 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 18 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.202 W/kg Power Drift-Finish: 0.198 W/kg Power Drift (%) : -2.089 DUT Position : 802.11g-Front Channel : 6 EUT 1 gram SAR value : 0.211 W/kg 10 gram SAR value : 0.149 W/kg Area Scan Peak SAR : 0.207 W/kg Zoom Scan Peak SAR : 0.300 W/kg Page: 19 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 20 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.215 W/kg Power Drift-Finish: 0.223 W/kg Power Drift (%) : 3.637 DUT Position : 802.11g-Front Channel : 11 EUT 1 gram SAR value : 0.235 W/kg 10 gram SAR value : 0.190 W/kg Area Scan Peak SAR : 0.234 W/kg Zoom Scan Peak SAR : 0.390 W/kg Page: 21 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 22 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.365 W/kg Power Drift-Finish: 0.354 W/kg Power Drift (%) : -3.115 DUT Position : 802.11g-Back Channel : 1 EUT 1 gram SAR value : 0.363 W/kg 10 gram SAR value : 0.224 W/kg Area Scan Peak SAR : 0.366 W/kg Zoom Scan Peak SAR : 0.620 W/kg Page: 23 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 24 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.407 W/kg Power Drift-Finish: 0.391 W/kg Power Drift (%) : -3.863 DUT Position : 802.11g-Back Channel : 6 EUT 1 gram SAR value : 0.337 W/kg 10 gram SAR value : 0.210 W/kg Area Scan Peak SAR : 0.350 W/kg Zoom Scan Peak SAR : 0.410 W/kg Page: 25 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 26 of 30 Version:1.0 Report No071L130-HPUSP09V01 Measurement Data Crest Factor : 1 Tissue Temp. : 20.20 C Ambient Temp. : 19.70 C Area Scan : 6x6x1 : Measurement x=10mm, y=10mm, z=4mm Zoom Scan : 7x7x7 : Measurement x=5mm, y=5mm, z=5mm Power Drift-Start : 0.379 W/kg Power Drift-Finish: 0.368 W/kg Power Drift (%) : -2.981 DUT Position : 802.11g-Back Channel : 11 EUT 1 gram SAR value : 0.315 W/kg 10 gram SAR value : 0.221 W/kg Area Scan Peak SAR : 0.404 W/kg Zoom Scan Peak SAR : 0.560 W/kg Page: 27 of 30 Version:1.0 Report No071L130-HPUSP09V01 This is previous page plot (zoom in) Page: 28 of 30 Version:1.0 Report No071L130-HPUSP09V01 EUT 2450MHz SAR test Z-Axis plot

(802.11b, Back, Channel 11) Page: 29 of 30 Version:1.0 Report No071L130-HPUSP09V01 EUT 2450MHz SAR test Z-Axis plot

(802.11g, Back, Channel 1) Page: 30 of 30 Version:1.0 Report No071L130-HPUSP09V01 Test Setup Photographs EUT Back EUT Front Page: 1 of 4 Version:1.0 Report No071L130-HPUSP09V01 EUT Top Page: 2 of 4 Version:1.0 Report No071L130-HPUSP09V01 EUT Photographs Page: 3 of 4 Version:1.0 Report No071L130-HPUSP09V01 Page: 4 of 4 Version:1.0 Appendix - Probe Calibration Miniature Isotropic RF Probe M/N: ALS-E-020 S/N: 264 2450MHz Head Calibration page 2~11 2450MHz Body Calibration page 12~21 Page: 1 of 21 Page: 2 of 21 Page: 3 of 21 Page: 4 of 21 Page: 5 of 21 Page: 6 of 21 Page: 7 of 21 Page: 8 of 21 Page: 9 of 21 Page: 10 of 21 Page: 11 of 21 Page: 12 of 21 Page: 13 of 21 Page: 14 of 21 Page: 15 of 21 Page: 16 of 21 Page: 17 of 21 Page: 18 of 21 Page: 19 of 21 Page: 20 of 21 Page: 21 of 21 Appendix - Dipole Calibration Validation Dipole 2450MHz P/N: ALS-D-2450-S-2 S/N: QTK-319

D C B A a n n e t n A C C C A A A

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Request for non-disclosure RF_501_02 To: Telefication B.V. Attn: Dept. FCC TCB Edisonstraat 12A 6902 PK ZEVENAAR The Netherlands SerComm Corporation 8F, No.3-1, Yuan Qu St. Nankang, Taipei 115 Taiwan, R.O.C. Subject: Request for non-disclosure (FCC ID:P27UB801RE) Reference number: UB801RE v2 Dear FCC TCB, Persuant to 47 CFR Section 0.459(a) & (b), SerComm Corporation hereby requests non-disclosure and confidential treatment of the following materials submitted in support of FCC certification application for FCC ID: (P27UB801RE) Date: 2007-01-05 Schematic diagrams Operational description a. b. Above materials contain secrets, proprietary and technical information, which would customarily be quarded from competitors under 47 CFR, section 0.457(d)(2). Disclosure or publication or any portion of this company confidential material to other parties could cause substantial competitive harm and provide unjustified benefits for competitors. SerComm Corporation understands that pursuant to 47 CFR section 0.457(d)(1)(ii) disclosure of the applicant and all accompanying documentation will not be made before the date of the grant. Ronnie Cheng Associate Manager / R&D Division SerComm Corporation

RF_160, Issue 01 8F, No.3-1, Yuan Qu St. Nankang, Taipei 115 Taiwan, R.O.C. Declaration of Authorization We Name: SerComm Corporation Address:

City:

Country:

Declare that:

Name: Exclusive Certification Corporation Address:

4F-2, No. 28, Lane 78 ,Xing-Ai Rd. Neihu, Taipei 114 City:

Country Taiwan, R.O.C. is authorized to apply for Certification of the following product(s):

Product description: 802.11g USB Wireless Adapter Type designation: UB801RE v2 Trademark: SerComm on our behalf. Date:

City:

Name:

Ronnie Cheng 2007/1/5 Taipei Signature:

FCC Test Report: FI06012401-E FCC TEST REPORT according to FCC Rules and Regulations Part 15 Subpart C Applicant Address Equipment Model No. Series No. FCC ID Trade Name SerComm Corporation 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. IEEE802.11g Wireless USB adapter UB801RE v2 WNC-0305USB P27UB801Re SerComm Laboratory Accreditation 1332

The test result refers exclusively to the test presented test model / sample.,

Without written approval of Exclusive Certification Corp. the test report shall not be reproduced except in full.

The EUT is also considered as a kind of computer peripheral, because the connection to computer is necessary for typical use. It has been verified to comply with the requirements of FCC Part 15, Subpart B, Class B (DoC). The test report has been issued separately. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 1 of 54 Contents FCC Test Report: FI06012401-E 5. 4. 2. 1. Report of Measurements and Examinations....................................................................................5 1.1 List of Measurements and Examinations ...................................................................................5 Test Configuration of Equipment under Test...................................................................................6 Feature of Equipment under Test..........................................................................................................6 RF Specifications ..................................................................................................................................6 2.1 Test Mode and Test Software.....................................................................................................7 2.2 Description of Test System.........................................................................................................7 2.3 Connection Diagram of Test System..........................................................................................8 2.4 General Information of Test........................................................................................................9 2.5 Description of Series model .......................................................................................................9 2.6 History of this test report ............................................................................................................9 3. Antenna Requirements.....................................................................................................................10 3.1 Standard Applicable .................................................................................................................10 3.2 Antenna Construction and Directional Gain.............................................................................10 Test of Conducted Emission............................................................................................................11 Test Limit.................................................................................................................................. 11 4.1 4.2 Test Procedures....................................................................................................................... 11 4.3 Typical Test Setup ...................................................................................................................12 4.4 Measurement equipment .........................................................................................................12 4.5 Test Result and Data................................................................................................................13 4.6 Test Photographs .....................................................................................................................15 Test of Radiated Emission ...............................................................................................................16 5.1 Test Limit..................................................................................................................................16 Test Procedures.......................................................................................................................17 5.2 5.3 Typical Test Setup ....................................................................................................................18 5.4 Measurement equipment .........................................................................................................18 5.5 Test Result and Data................................................................................................................19 5.6 Test Photographs .....................................................................................................................35 6dB Bandwidth Measurement Data.................................................................................................36 6.1 Test Limit ..................................................................................................................................36 Test Procedures .......................................................................................................................36 6.2 6.3 Test Setup Layout ....................................................................................................................36 6.4 Measurement equipment .........................................................................................................36 Test Result and Data................................................................................................................36 6.5 7. Maximum Peak Output Power .........................................................................................................40 Test Limit ..................................................................................................................................40 Test Procedures .......................................................................................................................40 Test Setup Layout ....................................................................................................................40 List of Measuring Equipment Used..........................................................................................40 Test Result and Data................................................................................................................40 8. Band Edges Measurement...............................................................................................................44 Test Limit ..................................................................................................................................44 Test Procedure .....................................................................................................................44 Test Setup Layout ....................................................................................................................44 List of Measuring Equipment Used..........................................................................................44 Test Result and Data................................................................................................................44 8.1 8.2 8.3 8.4 8.5 7.1 7.2 7.3 7.4 7.5 6. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 2 of 54 FCC Test Report: FI06012401-E 9.1 9.2 9.3 9.4 9.5 8.6 Restrict band emission Measurement Data.............................................................................49 9. Power Spectral Density....................................................................................................................50 Test Limit ..................................................................................................................................50 Test Procedures .......................................................................................................................50 Test Setup Layout.................................................................................................................50 List of Measuring Equipment Used..........................................................................................50 Test Result and Data................................................................................................................50 10. Restricted Bands of Operation........................................................................................................54 10.1 Labeling Requirement..............................................................................................................54 Appendix A. Photographs of EUT..A1 ~ A4 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 3 of 54 FCC Test Report: FI06012401-E CERTIFICATE OF COMPLIANCE according to FCC Rules and Regulations Part 15 Subpart C Applicant Address Equipment Model No. Series No. FCC ID SerComm Corporation 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. 802.11g Wireless USB Adapter UB801Re v2 WNC-0305USB P27UB801Re I HEREBY CERTIFY THAT :

The measurements shown in this test report were made in accordance with the procedures given in ANSI C63.4 The equipment was passed the test performed according to FCC Rules and Regulations Part 15 Subpart C (2003). The test was carried out on Feb. 08, 2006 at Exclusive Certification Corp. Signature Eric Chan / Manager Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 4 of 54 1. Report of Measurements and Examinations 1.1 List of Measurements and Examinations FCC Test Report: FI06012401-E FCC Rule

. Description of Test 15.203

. Antenna Requirement 15.207

. Conducted Emission 15.209

. Radiated Emission 15.247(a)(2) . 6dB Bandwidth 15.247(b)

. Maximum Peak Output Power 15.247(c)

. 100kHz Bandwidth of Frequency Band Edges 15.247(d)

. Power Spectral Density 1.1307 1.1310 2.1091 2.1093

. RF Exposure Compliance Result Pass Pass Pass Pass Pass Pass Pass Pass Test engineer:

Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 5 of 54 2. Test Configuration of Equipment under Test Feature of Equipment under Test FCC Test Report: FI06012401-E Reliable IEEE 802.11g and b standards-based wireless technology 54 Mbps high speed data transfer. Wireless nodes negotiate to operate in the optimal data transfer rate. In a noisy environment or when the distance between the wireless nodes is far, the wireless nodes automatically fall back to operate at lower transfer rates. High level of data encryption using128-bit Shared Key WEP data encryption method. A lower level of data encryption or no data encryption is available to simplify your network setup or to improve data transfer rate. WPA PSK (Wi-Fi Protected Access Pre-Shared Key) support. RF Specifications Chipset:

RF Chip:

Bus Type:

Data Rates :

Frequency Band :

Wireless Medium :

Media Access Protocol:

Operating Channels:

Operating Range:

Receive Sensitivity :

802.11g 802.11b Wireless Medium:

Media Access Protocol:

Transmit Power:

802.11g:

802.11b:

Security :

Standards EMI:

Environmental Range:

Operating temperature:

Operating humidity:

System Requirements RF Chip:

Realtek RTL8225 USB 2.0 54, 48, 36, 24, 18, 12, 9, and 6 Mbps(802 11g) 11, 5.5, 2, 1 Mbps (802.11b) 2.4GHz to 2.462GHz DSSS and OFDM CSMA/CA 1-14(FCC:1-11ETSI:1-13Japan:1-14 ) Indoors: Up to 328 ft (100 meters) Outdoors: Up to 1312 ft (400 meters) 54 Mbps: -71 dBm 48 Mbps: -73 dBm 36 Mbps: -77 dBm 24 Mbps: -81 dBm 18 Mbps: -83 dBm 12 Mbps: -83 dBm 9 Mbps: -83 dBm 6 Mbps: -83 dBm 11 Mbps: -84 dBm 5.5 Mbps: -85 dBm 2 Mbps: -86 dBm 1 Mbps: -86 dBm DSSS (Direct Sequence Spread Spectrum) CSMA/CA 141 dBm 181 dBm 64/128-bit WEP WPAWi-Fi Protected Access WPA certified, IEEE 802.11g, IEEE 802.11b FCC, CE 0o to 40oC (32o to 104oF) 0 to 90% non-condensing Notebook or desktop PC with USB port; USB 2.0 required for 54 Mbps data rate Notebook or desktop PC must be running Windows 98SE/ME/XP/ 2000 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 6 of 54 FCC Test Report: FI06012401-E 2.1 Test Mode and Test Software The following test mode and test software was performed for conduction and radiation test:

802.11b (CH LO: 2412MHz) 802.11b (CH MID: 2437MHz) 802.11b (CH HI: 2462MHz)

802.11g (CH LO: 2412MHz) 802.11g (CH MID: 2437MHz) 802.11g (CH HI: 2462MHz) An executive programs, MP8187VC.EXE Application under WIN XP. 2.2 Description of Test System Device PC Monitor Keyboard Mouse Modem Manufacturer Model No. IBM SlimAGE IGV 510A IBM IBM ACEXX KB-0225 MO28VO DM-1414 Printer HP Desk Jet400 Description Power Cable, Unshielding 1.8 m Power Cable, Adapter Unshielding 1.8 m Data Cable, VGA shielding 1.35 m Data Cable, PS2 shielding 1.85 m Data Cable, USB shielding 1.85 m Power Cable, Adapter Unshielding 1.8 m Data Cable, Unshielding 1.35 m Power Cable, Adapter Unshielding 1.8 m Data Cable, Shielding 1.6 m Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 7 of 54 2.3 Connection Diagram of Test System FCC Test Report: FI06012401-E 1 Printer 2 Modem EUT PC Monitor 3 4 Keyboard 5 Mouse 1. The I/O cable is connected from PC to the Printer 2. The I/O cable is connected from PC to the Modem 3. The I/O cable is connected from PC to the Monitor 4. The I/O cable is connected from PC to the Keyboard 5. The I/O cable is connected from PC to the Mouse Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 8 of 54 2.4 General Information of Test FCC Test Report: FI06012401-E Test Site:

Exclusive Certification Corp. 4F-2, No. 28, Lane 78, Xing-Ai Rd. Nei-hu, Taipei City 114 Taiwan R.O.C. Test Site Location (OATS1-SD): No.68-1, Shihbachongsi, shihding Township, Taipei City 223, Taiwan, R.O.C. FCC Registration Number Test Voltage:

Test in Compliance with:

632249 DC 5V ANSI C63.4-2003 FCC Part 15 Subpart C Frequency Range Investigated: Conducted: from 150kHz to 30 MHz Test Distance:

Radiation: from 30 MHz to 24620MHz The test distance of radiated emission from antenna to EUT is 3 M. 2.5 Description of Series model The Series Model: WNC-0305USB and the Model No.:UB801RE v2 are the same, and they only differ from the model No. and trade name. The function and specifications are the same. 2.6 History of this test report The Model No.: WG111 V2 (Report No: FI06012401-A) and Model No. :UB801RE v2 (Report No:

FI06012401-E) are the same, and they only differ from the model No., trade name and outside cosmetic. The function and specifications are the same. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 9 of 54 FCC Test Report: FI06012401-E 3. Antenna Requirements 3.1 Standard Applicable For intentional device, according to FCC 47 CFR Section 15.203, an intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. And according to FCC 47 CFR Section 15.247 (b), if transmitting antennas of directional gain greater than 6dBi are used, the power shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6dBi. 3.2 Antenna Construction and Directional Gain Antenna type: Printed Antenna Antenna Gain: 0dBi. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 10 of 54 4. Test of Conducted Emission 4.1 Test Limit FCC Test Report: FI06012401-E Conducted Emissions were measured from 150 kHz to 30 MHz with a bandwidth of 9 KHz on the 120 VAC power and return leads of the EUT according to the methods defined in ANSI C63.4-2003 Section 3.1. The EUT was placed on a nonmetallic stand in a shielded room 0.8 meters above the ground plane as shown in section 2.2. The interface cables and equipment positioning were varied within limits of reasonable applications to determine the position produced maximum conducted emissions. Frequency

(MHz) 0.15 0.5 0.5 5.0 5.0 30.0 Quasi Peak

(dB V) 66-56*

56 60

*Decreases with the logarithm of the frequency. Average

(dB V) 56-46*

46 50 4.2 Test Procedures a. The EUT was placed 0.4 meter from the conducting wall of the shielding room was kept at least 80 centimeters from any other grounded conducting surface. b. Connect EUT to the power mains through a line impedance stabilization network (LISN). c. All the support units are connecting to the other LISN. d. The LISN provides 50 ohm coupling impedance for the measuring instrument. e. The FCC states that a 50 ohm, 50 micro-Henry LISN should be used. f. Both sides of AC line were checked for maximum conducted interference. g. The frequency range from 150 kHz to 30 MHz was searched. h. Set the test-receiver system to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 11 of 54 FCC Test Report: FI06012401-E 4.3 Typical Test Setup 10cm EUT 80cm 80cm LISN 40cm 40cm 80cm LISN 4.4 Measurement equipment Instrument/Ancillary Receiver LISN LISN Model No. SCR3501 NNB-2/16Z NNB-2/16Z Manufacturer Schaffner MESS TEC ROLF HEINE Serial No. 437 02/10191 03/10058 Valid Date. 2006/11/03 2006/03/30 2006/05/01 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 12 of 54 4.5 Test Result and Data FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 13 of 54 FCC Test Report: FI06012401-E Test engineer:

Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 14 of 54 5. Test of Radiated Emission 5.1 Test Limit FCC Test Report: FI06012401-E Radiated emissions from 30 MHz to 25 GHz were measured according to the methods defines in ANSI C63.4-2003. The EUT was placed, 0.8 meter above the ground plane, as shown in section 5.6.3. The interface cables and equipment positions were varied within limits of reasonable applications to determine the positions producing maximum radiated emissions For unintentional device, according to 15.109(a), except for Class A digital devices, the field strength of radiated emissions from unintentional radiators at a distance of 3 meters shall not exceed the following values:

Frequency

(MHz) 30-88 88-216 216-960 Above 960 Distance Meters Radiated

( V / M) Radiated

(dB V/ M) 3 3 3 3 100 150 200 500 40.0 43.5 46.0 54.0 For unintentional device, according to CISPR PUB.22, for Class B digital devices, the general requirement of field strength of radiated emissions from intentional radiators at a distance of 10 meters shall not exceed the above table. Frequency

(MHz) 30-230 230-1000 Distance Meters Radiated

(dB V/ M) 10 10 30 37 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 16 of 54 FCC Test Report: FI06012401-E 5.2 Test Procedures 1. The EUT was placed on a rotatable table top 0.8 meter above ground. 2. The EUT was set 3 meters from the interference receiving antenna which was mounted on the top of a variable height antenna tower. 3. The table was rotated 360 degrees to determine the position of the highest radiation. 4. The antenna is a broadband antenna and its height is varied between one meter and four meters above ground to find the maximum value of the field strength both horizontal polarization and vertical polarization of the antenna are set to make the measurement. 5. For each suspected emission the EUT was arranged to its worst case and then tune the antenna tower (from 1 M to 4 M) and turn table (from 0 degree to 360 degrees) to find the maximum reading. 6. Set the test-receiver system to Peak or CISPR quasi-peak Detect Function and specified bandwidth with Maximum Hold Mode. If the emission level of the EUT in peak mode was 3 dB lower than the limit specified, then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions which do not have 3 dB margin will be repeated one by one using the quasi-peak method and reported. 7. 8. For testing above 1GHz, the emission level of the EUT in peak mode was 20dB lower than average limit (that means the emission level in peak mode also complies with the limit in average mode), then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions will be measured in average mode again and reported. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 17 of 54 FCC Test Report: FI06012401-E 5.3 Typical Test Setup Antenna Equipment under Test

* Test distance Turn Table 0.8M Receiver Ground Plane 5.4 Measurement equipment Instrument/Ancillary Model No. Manufacturer Serial No. Valid Date EMI Receiver Spectrum Analyzer Horn Antenna Horn Antenna 8546A FSP40 3115 3116 HP R&S EMCO EMCO Bilog Antenna CBL6112B Schaffner 3807A00454 2006/04/13 10047 31589 31970 2840 2007/01/16 2007/02/12 2007/02/09 2006/04/11 Amplifier Amplifier 8449B 8447D Agilent Agilent 3008A01954 2007/01/08 2944A10531 2006/08/09 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 18 of 54 FCC Test Report: FI06012401-E 5.5 Test Result and Data Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 19 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 20 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 21 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 22 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 23 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 24 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 25 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 26 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 27 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 28 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 29 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 30 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 31 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 32 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 33 of 54 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 34 of 54 FCC Test Report: FI06012401-E 6. 6dB Bandwidth Measurement Data 6.1 Test Limit The minimum of 6dB Bandwidth Measurement is 0.5 MHz. 6.2 Test Procedures 1. The transmitter output was connected to the spectrum analyzer. 2. Set RBW of spectrum analyzer to 100 KHz and VBW to 100 KHz. 3. The 6 dB bandwidth is defined as the total spectrum the power of which is higher than peak power minus 6 dB. 6.3 Test Setup Layout 6.4 Measurement equipment Instrument/Ancillary Spectrum Analyzer Model No. Manufacturer FSP40 R&S Serial No. 100047 Valid Date. 2007/01/16 6.5 Test Result and Data

(1) Modulation Standard: IEEE 802.11b (11Mbps) Test Date: Feb. 06, 2006 Temperature: 22 Humidity: 70% Atmospheric pressure: 1026 mmHg Channel 01 06 11 Frequency 6dB Bandwidth

(MHz) 2412 2437 2462

(MHz) 8.8 8.9 8.8

(2) Modulation Standard: IEEE 802.11g (54Mbps) Test Date: Feb. 06, 2006 Temperature: 22 Humidity: 70% Atmospheric pressure: 1026 mmHg Channel 01 06 11 Frequency 6dB Bandwidth

(MHz) 2412 2437 2462

(MHz) 16.5 16.4 16.5 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 36 of 54 FCC Test Report: FI06012401-E Modulation Standard: 802.11b (11Mbps) Channel: 01 Channel:06 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 37 of 54 FCC Test Report: FI06012401-E Channel: 11 Modulation Standard:802.11g (54Mbps) Channel:01 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 38 of 54 Channel: 06 FCC Test Report: FI06012401-E Channel:11 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 39 of 54 FCC Test Report: FI06012401-E 7. Maximum Peak Output Power 7.1 Test Limit The Maximum Peak Output Power Measurement is 30dBm. 7.2 Test Procedures The antenna portRF outputof the EUT was connected to the inputRF inputof a power meter. Power was read directly from the meter and cable loss connection was added to the reading to obtain power at the EUT antenna terminal. The EUT Output Power was set to maximum to produce the worse case test result. 7.3 Test Setup Layout 7.4 List of Measuring Equipment Used Instrument/Ancillary Spectrum Analyzer Model No. Manufacturer FSP40 R&S Serial No. 100047 Valid Date. 2007/01/16 7.5 Test Result and Data

(1) Modulation Standard: IEEE 802.11b (11Mbps) Test Date: Feb. 06, 2006 Temperature: 22 Humidity: 70% Atmospheric pressure: 1026 mmHg Frequency Peak Power Output Peak Power Output Channel

(dBm) 19.25 19.27 19.44

(2) Modulation Standard: IEEE 802.11g (54Mbps)

(MHz) 2412 2437 2462 01 06 11

(mW) 84.10 84.50 87.90 Test Date: Feb. 06, 2006 Temperature: 22 Humidity: 70% Atmospheric pressure: 1026 mmHg Frequency Peak Power Output Peak Power Output

(MHz) 2412 2437 2462

(dBm) 15.20 15.20 15.06

(mW) 33.10 32.40 32.10 Channel 01 06 11 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 40 of 54 FCC Test Report: FI06012401-E Modulation Standard: 802.11b (11Mbps) Channel: 01 Channel:06 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 41 of 54 FCC Test Report: FI06012401-E Channel: 11 Modulation Standard:802.11g (54Mbps) Channel:01 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 42 of 54 Channel: 06 FCC Test Report: FI06012401-E Channel:11 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 43 of 54 FCC Test Report: FI06012401-E 8. Band Edges Measurement 8.1 Test Limit Below 20dB of the highest emission level of operating band

(in 100kHz Resolution Bandwidth). 8.2 Test Procedure 1. The transmitter output was connected to the spectrum analyzer via a low lose cable. 2. Set both RBW and VBW of spectrum analyzer to 100 KHz with convenient frequency span including 100 KHz bandwidth from band edge. 3. The band edges was measured and recorded. 8.3 Test Setup Layout 8.4 List of Measuring Equipment Used Instrument/Ancillary Spectrum Analyzer Model No. Manufacturer FSP40 R&S Serial No. 100047 Valid Date. 2007/01/16 8.5 Test Result and Data

(1) Modulation Standard: IEEE 802.11b (11Mbps) Test Date: Feb. 06, 2006 Temperature: 22 Humidity: 70% Atmospheric pressure: 1026 mmHg Channel Frequency 01 11 2412 2462 maximum value in frequency maximum value is

(MHz) 2399.4 20635.0

(dBm)

-32.03

-53.30

(2) Modulation Standard: IEEE 802.11g (54Mbps) Test Date: Feb. 06, 2006 Temperature: 22 Humidity: 70% Atmospheric pressure: 1026 mmHg Channel Frequency 01 11 2412 2462 maximum value in frequency maximum value is

(MHz) 2399.8 2483.7

(dBm)

-44.28

-53.47 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 44 of 54 Modulation Standard: 802.11b (11Mbps) Channel: 01 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 45 of 54 Channel: 11 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 46 of 54 FCC Test Report: FI06012401-E Modulation Standard: 802.11g (54Mbps) Channel: 01 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 47 of 54 FCC Test Report: FI06012401-E Channel: 11 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 48 of 54 FCC Test Report: FI06012401-E 8.6 Restrict band emission Measurement Data Modulation Standard: IEEE 802.11b (11Mbps) Test Date: Feb. 08, 2006 Temperature: 14 Humidity: 70% Atmospheric pressure: 1032 mmHg a) Channel 1 Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2364.978 2371.404 2378.034 2375.484 b) Channel 11 H H V V 54.03 43.36 52.64 40.36

-2.14

-2.11

-2.09

-2.10 51.89 41.25 50.55 38.26 Peak Ave Peak Ave Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2495.022 2500.000 2487.422 2492.020 H H V V 52.67 40.61 52.33 40.50

-1.69

-1.69

-1.71

-1.70 50.98 38.94 50.62 38.80 Peak Ave Peak Ave Limit@3m

(dBuV/m) Peak Ave. 54 74 54 74 74 54 54 74 Limit@3m

(dBuV/m) Peak Ave. 54 74 74 54 54 74 74 54 Margin

(dB) Table

(Deg.)

-22.01

-12.75

-23.45

-15.74 34 34 294 294 Margin

(dB) Table

(Deg.)

-23.02

-15.06

-23.38

-15.20 34 34 294 294 Modulation Standard: 802.11g (54Mbps) Test Date: Feb. 08, 2006 Temperature: 14 Humidity: 70% Atmospheric pressure: 1032 mmHg a) Channel 1 Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2389.764 2389.968 2361.714 2389.968 b) Channel 11 H H V V 56.02 44.32 52.78 40.27

-2.05

-2.05

-2.15

-2.05 53.97 42.27 50.63 38.22 Peak Ave Peak Ave Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2483.508 2483.508 2491.032 2483.508 H H V V 55.26 43.23 52.46 40.26

-1.73

-1.73

-1.70

-1.73 53.53 41.50 50.76 38.53 Peak Ave Peak Ave Limit@3m

(dBuV/m) Peak Ave. 74 54 54 74 54 74 74 54 Limit@3m

(dBuV/m) Peak Ave. 54 74 54 74 54 74 74 54 Margin

(dB) Table

(Deg.)

-20.03

-11.73

-23.37

-15.78 34 34 294 294 Margin

(dB) Table

(Deg.)

-20.47

-12.50

-23.24

-15.47 34 34 294 294 Notes:

1. Result = Meter Reading + Factor 2. Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 49 of 54 Ant High

(m) 1.0 1.0 1.0 1.0 Ant High

(m) 1.0 1.0 1.0 1.0 Ant High

(m) 1.0 1.0 1.0 1.0 Ant High

(m) 1.0 1.0 1.0 1.0 FCC Test Report: FI06012401-E 9. Power Spectral Density 9.1 Test Limit The Maximum of Power Spectral Density Measurement is 8dBm. 9.2 Test Procedures 1. The transmitter output was connected to spectrum analyzer. 2. The spectrum analyzers resolution bandwidth were set at 3KHz RBW and 30KHz VBW as that of the fundamental frequency. Set the sweep time=span/3KHz. 3. The power spectral density was measured and recorded. 4. The Sweep time is allowed to be longer than span/3KHz for a full response of the mixer in the spectrum analyzer. 9.3 Test Setup Layout 9.4 List of Measuring Equipment Used Instrument/Ancillary Spectrum Analyzer Model No. Manufacturer FSP40 R&S Serial No. 100047 Valid Date. 2007/01/16 9.5 Test Result and Data

(1) Modulation Standard: IEEE 802.11b (11Mbps) Test Date: Feb. 06, 2006 Temperature: 22 Humidity: 70% Atmospheric pressure: 1026 mmHg Channel Frequency 01 06 11 2412 2437 2462 Maximum Power Density of 3 kHz Bandwidth

(dBm)

-10.92

-11.04

-11.25

(2) Modulation Standard: IEEE 802.11g (54Mbps) Test Date: Feb. 06, 2006 Temperature: 22 Humidity: 70% Atmospheric pressure: 1026 mmHg Channel Frequency 01 06 11 2412 2437 2462 Maximum Power Density of 3 kHz Bandwidth

(dBm)

-19.79

-19.58

-19.28 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 50 of 54 Modulation Standard: 802.11b (11Mbps) Channel: 01 FCC Test Report: FI06012401-E Channel:06 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 51 of 54 FCC Test Report: FI06012401-E Channel: 11 Modulation Standard:802.11g (54Mbps) Channel:01 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 52 of 54 Channel: 06 Channel:11 FCC Test Report: FI06012401-E Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 53 of 54 FCC Test Report: FI06012401-E 10. Restricted Bands of Operation Only spurious emissions are permitted in any of the frequency bands listed below:

MHz MHz MHz 0.09000 0.11000 0.49500 0.505**

2.17350 2.19050 4.12500 4.12800 4.17725 4.17775 4.20725 4.20775 6.21500 6.21800 6.26775 6.26825 6.31175 6.31225 8.29100 8.29400 8.36200 8.36600 8.37625 8.38675 8.41425 8.41475 12.29000 12.29300 12.51975 12.52025 12.57675 12.57725 13.36000 13.41000

**: Until February 1, 1999, this restricted band shall be 0.490-0.510 MHz 16.42000 16.42300 16.69475 16.69525 16.80425 16.80475 25.50000 25.67000 37.50000 38.25000 73.00000 74.60000 74.80000 75.20000 108.00000 121.94000 123.00000 138.00000 149.90000 150.05000 156.52475 156.52525 156.70000 156.90000 162.01250 167.17000 167.72000 173.20000 240.00000 285.00000 322.00000 335.40000 399.9 410.0 608.0 614.0 960.0 1240.0 1300.0 1427.0 1435.0 1626.5 1645.5 1646.5 1660.0 1710.0 1718.8 1722.2 2200.0 2300.0 2310.0 2390.0 2483.5 2500.0 2655.0 2900.0 3260.0 3267.0 3332.0 3339.0 3345.8 3358.0 3600.0 4400.0 GHz 4.500 5.250 5.350 5.460 7.250 7.750 8.025 8.500 9.000 9.200 9.300 9.500 10.600 12.700 13.250 13.400 14.470 14.500 15.350 16.200 17.700 21.400 22.010 23.120 23.600 24.000 31.200 31.800 36.430 36.500 Above 38.6 10.1 Labeling Requirement The device shall bear the following statement in a conspicuous location on the device:

This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 54 of 54

FCC Test Report: FI06012401-E 4.6 Test Photographs Front View Rear View Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 15 of 54 FCC Test Report: FI06012401-E 5.6 Test Photographs Front View Rear View Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Jan. 05, 2007 35 of 54